The High Current Experiment (HCX) at LBNL is a driver scale single beam injector that provides a 1 MeV K+ ion beam current of 0.18 A for 5 {micro}s. It transports high-current beams with large fill factor (ratio of the maximum beam envelope radius to the beam pipe radius) and low emittance growth that are required to keep the cost of the power plant competitive and to satisfy the target requirements of focusing ion beams to high-power density. Beam interaction with the background gas and walls desorbs electrons that can multiply and accumulate, creating an electron cloud. This ubiquitous effect grows at higher fill factors and degrades the quality of the beam. We review simulations and diagnostics tools used to measure electron production, ...
Contaminating clouds of electrons are a common concern for accelerators of positive-charged particle...
The High Current Experiment (HCX) at Lawrence Berkeley National Laboratory is part of the US program...
Heavy-ion induction linacs for inertial fusion energy and high-energy density physics have an econom...
Beam interaction with background gas and walls produces ubiquitous clouds of stray electrons that fr...
We study electron clouds in high perveance beams (K = 8E-4) with a large tune depression of 0.2 (def...
Accelerators for heavy-ion inertial fusion energy (HIF) have an economic incentive to fit beam tubes...
Accelerators for heavy-ion inertial fusion energy (HIF) have an economic incentive to fit beam tubes...
Electron-clouds and rising desorbed gas pressure limit the performance of many existing accelerators...
Heavy-ion accelerators for HIF will operate at high aperture-fill factors with high beam current and...
Contamination from electrons is a concern for the solenoid-focused ion accelerators being developed ...
Electron cloud effects (ECEs) are increasingly recognized as important, but incompletely understood,...
Clouds of stray electrons are ubiquitous in particle accelerators and frequently limit the performan...
The Heavy-Ion Fusion (HIF) group, under the DOE Office of Fusion Energy Science (OFES) funding, has ...
A Retarding Field Analyzer (RFA) was inserted in a drift region of a magnetic transport section of t...
The promise of inertial fusion energy driven by heavy ion beams requires the development of accelera...
Contaminating clouds of electrons are a common concern for accelerators of positive-charged particle...
The High Current Experiment (HCX) at Lawrence Berkeley National Laboratory is part of the US program...
Heavy-ion induction linacs for inertial fusion energy and high-energy density physics have an econom...
Beam interaction with background gas and walls produces ubiquitous clouds of stray electrons that fr...
We study electron clouds in high perveance beams (K = 8E-4) with a large tune depression of 0.2 (def...
Accelerators for heavy-ion inertial fusion energy (HIF) have an economic incentive to fit beam tubes...
Accelerators for heavy-ion inertial fusion energy (HIF) have an economic incentive to fit beam tubes...
Electron-clouds and rising desorbed gas pressure limit the performance of many existing accelerators...
Heavy-ion accelerators for HIF will operate at high aperture-fill factors with high beam current and...
Contamination from electrons is a concern for the solenoid-focused ion accelerators being developed ...
Electron cloud effects (ECEs) are increasingly recognized as important, but incompletely understood,...
Clouds of stray electrons are ubiquitous in particle accelerators and frequently limit the performan...
The Heavy-Ion Fusion (HIF) group, under the DOE Office of Fusion Energy Science (OFES) funding, has ...
A Retarding Field Analyzer (RFA) was inserted in a drift region of a magnetic transport section of t...
The promise of inertial fusion energy driven by heavy ion beams requires the development of accelera...
Contaminating clouds of electrons are a common concern for accelerators of positive-charged particle...
The High Current Experiment (HCX) at Lawrence Berkeley National Laboratory is part of the US program...
Heavy-ion induction linacs for inertial fusion energy and high-energy density physics have an econom...